KR102342050B1 - Recycled fabric using textile waste and leather waste and its manufacturing method - Google Patents

Abstract

The present invention relates to a recycled fabric using textile waste and leather waste, and a method for manufacturing the same. The present invention proposes a novel utilization method of leather waste to reduce the amount of leather waste discarded annually to reduce industrially wasted resources, as well as to effectively reduce the amount of environmentally harmful waste.

Description

Recycled fabric using textile waste and leather waste and its manufacturing method

The present invention relates to recycled fabric using textile waste and leather waste.

Leather fabrics inevitably generate by-products depending on the process of processing raw hides, and different types of leather waste are generated in each process, resulting in a very large amount. About 170,000 tons of waste paper are generated every year, and leather waste is generated at a similar level of about 160,000 tons. However, although about 27% of waste paper is recycled using recycling technology, the recycling rate of leather waste is only about 14%, indicating that the scale of disposal is huge. In developed countries such as Italy and Germany, the recycling rate of leather waste is known to be more than 50%, so the recycling rate of leather waste in Korea is remarkably low. In addition, there is a problem that leather waste does not rot during landfill, and incineration is fundamentally prohibited.

Until now, leather waste is partially used as industrial tallow or industrial gelatin, and is recycled as a material using shaving scrap generated according to the processing process. However, there is still no technology that can effectively recycle leather waste, so resources are wasted industrially, and the problem of waste treatment has not been solved environmentally.

Republic of Korea Patent No. 10-1186224 (registered on Sep. 20, 2012) describes a fabric using waste leather and a production method thereof. Republic of Korea Patent No. 10-1896928 (registered on 09/04/2018) describes a bag product using a fabric made by bonding regenerated leather to Korean paper.

The present invention aims to effectively reduce the amount of environmentally harmful waste as well as reduce industrially wasteful resources by reducing the amount of leather waste that is disposed of in large amounts every year by proposing a new utilization method of leather waste.

The present invention intends to manufacture a recycled fabric using discarded textile waste and leather waste.

The present invention comprises the steps of (a) pulverizing fiber waste and leather waste to prepare a pulverized fiber waste product and a pulverized leather waste product; (b) pasting the pulverized product of step (a); After step (b), coating the paste on polyester (c); and (d) curing the polyester-coated paste after the step (c).

In the present invention, preferably, after the step (d), the step (e) of heat treatment using a tenter (tenter); it is good to further include.

In the present invention, the heat treatment is preferably performed at 180 ~ 200 ℃.

In the present invention, the paste of step (b) is, preferably, with respect to the total weight of the paste, 10 to 20% by weight of crushed fiber waste, 28 to 38% by weight of pulverized leather waste, 45 to 55% by weight of polyurethane It is better to include %.

In addition, the present invention provides a recycled fabric manufactured by the above manufacturing method.

The present invention can provide a recycled fabric using discarded textile waste and leather waste. By reducing the amount of waste generated, industrially wasted resources can be reduced, and the amount of environmentally harmful waste can be effectively reduced.

The regenerated fabric produced by the present invention has the advantages of improving durability (shape stability), moisture permeability, and elasticity by improving the disadvantages of existing leather fabrics.

1 is a view showing a process of securing moisture permeability by forming a porous coating layer as a solvent such as additives and moisture evaporates while a paste coated on polyester (knit fabric) is cured.
2 is a view briefly showing a method of manufacturing a recycled fabric of the present invention.
3 is a photograph of the recycled fabric manufactured by the present invention.

The present invention comprises the steps of (a) pulverizing fiber waste and leather waste to prepare a pulverized fiber waste product and a pulverized leather waste product; (b) pasting the pulverized product of step (a); After step (b), coating the paste on polyester (c); and (d) curing the polyester-coated paste after the step (c).

In addition, the present invention provides a recycled fabric manufactured by the above manufacturing method.

Hereinafter, the manufacturing method of the recycled fabric using the textile waste and leather waste of the present invention will be described in detail by subdividing each step.

< Step (a): Grinding of textile waste and leather waste >

Pulverize textile waste (straw cotton) and shaving scrap to a particle size of 0.1 mm to 0.3 mm. Fallen wool refers to debris generated during the spinning, weaving, and processing of fibers. Shaving scrap, which is a waste of leather, is a by-product generated during the processing of leather fabric and is called leather powder or leather residue. In the present invention, it is preferable to use synthetic fiber waste (straw cotton) and natural leather waste, and the synthetic fiber waste is preferably bald cotton generated from fabrics such as acrylic, polyester, and rayon.

The recycled fabric of the present invention is manufactured by mixing textile waste and leather waste with polyurethane resin, and in order to maintain the strength and elongation of the recycled fabric, it is preferable that the particle size of the textile waste and leather waste is 0.1 mm to 0.3 mm . In order to pulverize to such a particle size, it is preferable to use a hammer mill or a cutting mill.

On the other hand, the recycled fabric of the present invention is a fabric with flexibility and elasticity, and when the particle size of the textile waste and leather waste is out of the above range, the strength and elongation of the recycled fabric are undesirable, so there is a problem in that it is difficult to realize the desired quality.

In addition, the present invention can implement a recycled fabric using leather waste, that is, regenerated leather, and it can be seen that the fiber waste serves as a reinforcing bar supporting the structure in the paste manufactured in the following step.

<Step (b): Pasting of the pulverized product>

In this step, the fiber waste and leather waste are pasted to bond the polyester fabric. Pasting in this step refers to a gelated state or a state similar to clay. The pasting is preferably performed by mixing using a mixer or the like.

The recycled fabric of the present invention is prepared by coating the paste on recycled polyester. When polyurethane is used to mix and paste the pulverized fiber waste and pulverized leather waste, a paste with desired properties can be realized, and thereafter, suitable properties are shown when coating the paste on recycled polyester, so coating is easy. .

In addition, it is preferable to adjust the physical properties of the paste by adding a dispersant, a thickener, and a water repellent to the paste formation in this step. By adding a dispersing agent, thickener, and water repellent agent, the properties of the paste can be appropriately adjusted to increase the mixability of the pulverized fiber waste, pulverized leather waste, and polyurethane resin. It can also be made to exhibit suitable physical properties.

In addition, it is preferable to use the additives (dispersant, thickener, water repellent) added in this step to the extent of maintaining the viscosity of the paste composition for final physical properties. Preferably, 10 to 20% by weight of crushed fiber waste, 28 to 38% by weight of pulverized leather waste, 45 to 55% by weight of polyurethane, 0.01 to 2% by weight of dispersant, 0.01 to 2% by weight of thickener, 0.01 to 2% by weight of water repellent It is better to mix %.

In addition, it is preferable to use a volatile additive (dispersant, thickener, water repellent) added in this step. The recycled fabric according to the present invention is manufactured by coating a paste on recycled polyester, and it is preferable to create micropores while the additive evaporates or volatilizes according to the processing process after the paste coating. According to the generation of such micropores, the regenerated fabric of the present invention has the advantage of securing moisture permeability. That is, it is possible to improve the problem of insufficient breathability and moisture permeability of general leather fabrics.

In the present invention, the dispersing agent may be an appropriate dispersing agent such as cationic, anionic, nonionic, but preferably a polymer dispersing agent. For example, there are acrylic copolymers, polyurethane, polyester, polyethyleneimine, polyallylamine, and the like. As an acrylic copolymer, Disperbyk-2000, Disperbyk-2001, BYK-LPN6919, BYK-LPN21116, BYK-LPN21324 from BYK Corporation can be used, and BYK Corporation for polyurethane. Disperbyk-161, Disperbyk-162, Disperbyk-165, Disperbyk-167, Disperbyk-170, Disperbyk-182, Disperbyk-2164, Solsperse 76500 from Lubrizol can be used, and Lubrizol Corporation as polyethyleneimine (Company) Solsperse 24000 can be used, and Ajisper PB821, Azisper PB822, and Azisper PB880 of Ajinomoto Fine Techno Co., Ltd. can be used as polyester. Preferably, it is good to use Ajisper PB880 of Ajinomoto Fine Techno.

In the present invention, it is preferable to use an associative thickener as the thickener, and preferably a urethane associative thickener. The urethane associative thickener has excellent water resistance, can be applied even at high concentrations, and has the advantage that there is no change in viscosity depending on temperature. As an example, UH-420, UH-462, UH-472, UH-540, UH-752, UH-756VF, and UH-814N of Adeka Corporation may be used, and SN THICKENER of San Nofco Inc. 612, SN THICKENER 621N, SN THICKENER 625N, SN THICKENER 627N, SN THICKENER 660T can be used, and more preferably, UH-756VF of Adeka Corporation (company) is used.

In the present invention, it is preferable to use a water-soluble water-repellent agent or an aqueous water-repellent agent as the water repellent, preferably CT110 of Henkel Corporation.

< Step (c) : Paste coating on polyester >

The recycled fabric of the present invention is manufactured by coating the recycled fabric with a paste prepared using textile waste and leather waste. The fabric is preferably polyester, and more preferably recycled polyester. An object of the present invention is to reduce the amount of waste generated in the textile industry and to find a way to recycle it. Accordingly, in the present invention, it is preferable to use recycled polyester.

In addition, the coating in this step may be preferably coated on one side or both sides of the polyester.

On the other hand, it is preferable that the polyester of this step is raised on both sides. If polyester that has not been raised is used, the paste may peel off due to insufficient coating and penetrating power of the paste.

In this step, the coating is preferably roller-coated (refer to FIG. 2). The regenerated fabric of the present invention is an improvement on the thick and heavy disadvantages of the existing leather fabric, and it is preferable to roller-coat it in order to reduce the thickness of the regenerated fabric. In addition, the roller coating may be repeatedly performed to prevent the paste from peeling off the polyester or to further reduce the thickness of the recycled fabric.

In this step, it is necessary to apply (coat) the paste to the polyester to a certain thickness so that a recycled fabric of excellent quality can be manufactured. In addition, after coating the paste on the polyester, it is good to go through a shearing process to uniformly process the surface.

<Step (d): Curing of the polyester-coated paste>

This step is a step of curing the paste coated on the polyester in step (c). The paste cured by this step forms micropores as the moisture of the additive evaporates or volatilizes, thereby securing the moisture permeability of the regenerated fabric (see FIG. 1).

The curing in this step may be dried at a high temperature or cooled or cured at a low temperature, for example, it is preferably made through the heating zone of FIG. 2 , or preferably cooled or cured at a low temperature. More preferably, the paste is cooled or cured by immersion in water at room temperature.

<Step (e): Heat treatment >

After the paste is cured by the above step, it is preferable to heat-treat the fabric using a tenter to further fusion-bond the polyester and the paste. The fusion refers to further strengthening the bonding force between the polyester and the paste.

A tenter machine is a machine that stretches the width of the fabric while drying it or pulling it out while ironing it. Preferably, heat treatment at 180 ~ 200 ℃ conditions is good, and as it passes over the hot plate of the tenter machine, it is good that the polyester and the paste are dried and fused by thermal convection.

The series of manufacturing methods are briefly shown in FIG. 2 . The regenerated fabric of the present invention manufactured by the above manufacturing method has the advantage of being inexpensive compared to the existing leather fabric, and has the advantage of being excellent in durability (shape stability) and washing with water. In addition, it has excellent elasticity compared to the existing leather fabric, and has the effect of improving the disadvantages of the existing leather fabric by providing moisture permeability.

On the other hand, the recycled fabric of the present invention can additionally use a separate material to further realize strength or elasticity during the manufacturing process, and in addition to the used waste, materials such as waste yarn, waste clothing, waste banners, and waste fishing nets can be utilized.

The recycled fabric manufactured by the present invention can be utilized not only as leather fabric and mustang for clothing (suede), but also as a flooring material, a reinforcing material, and the like.

In addition, the regenerated fabric after step (e) may be further processed, such as shaping, according to a method commonly used in the art, and may be processed by a conventional method for use as a leather fabric. For example, a color imparting process such as dyeing may be performed for diversification, and post-processing processes such as steam ironing, shaving, and embossing may be performed to realize a leather-like surface.

Hereinafter, the content of the present invention will be described in more detail through the following examples. However, the scope of the present invention is not limited only to the following examples, and includes modifications of technical ideas equivalent thereto.

[Example 1: Preparation of recycled fabric]

Synthetic fiber waste (straw cotton) and natural leather waste (shaving scrap) were pulverized to a particle size of 0.1 mm to 0.3 mm, respectively. Based on the total weight of the recycled fabric, 14 wt% of pulverized synthetic fiber waste, 33 wt% of pulverized natural leather waste, 50 wt% of polyurethane, 1 wt% of a thickener (UH-756VF, manufactured by Adecas), a dispersant ( Ajisper PB880, Ajinomoto Fine Techno Co., Ltd.) 1 wt%, and water repellent (CT110, Henkel Co., Ltd.) 1 wt% were mixed to form a paste to prepare a gel-like paste. The paste was roller-coated on both sides of the recycled polyester, and then the paste was cooled (cured) by immersion in water at room temperature. According to the cooling (hardening) of the paste, some of the components of the thickener, dispersant, and water repellent and moisture evaporated or volatilized to create micropores in the paste, thereby providing moisture permeability to the regenerated fabric. Thereafter, the polyester and the paste were further fused using a tenter at 190°C.

The prepared recycled fabric is shown in FIG. 3 . The manufactured recycled fabric was thinner than the existing leather fabric and was able to secure breathability (moisture permeability) and elasticity.

Claims (5)

Pulverizing textile waste and leather waste to 0.1 mm to 0.3 mm, respectively, to prepare a pulverized fiber waste product and a pulverized leather waste product (a);
(b) pasting the pulverized product of step (a);
After the step (b), the step (c) of roller coating the paste on polyester;
After the step (c), curing the paste coated on the polyester by immersing it in water at room temperature (d); and
After the step (d), using a tenter (tenter) to heat treatment at 180 ~ 200 ℃ step (e);
The paste of step (b) is,
Based on the total weight of the paste, 10-20% by weight of crushed fiber waste, 28-38% by weight of crushed leather waste, 45-55% by weight of polyurethane, 0.01-2% by weight of polyester-based dispersant, 0.01-2% by weight of urethane associative thickener and 0.01 to 2% by weight of a water-soluble water repellent,
The polyester is raised on both sides,
The method of manufacturing a recycled fabric, characterized in that the recycled fabric has elasticity and moisture permeability.
delete delete delete A regenerated fabric having elasticity and moisture permeability manufactured according to the manufacturing method of claim 1.

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